View clinical trials related to Obstructive Sleep Apnea.
Filter by:Obstructive sleep apnea (OSA) is a common but under-diagnosed form of sleep disordered breathing (SDB). Asthma is a common disease with rising prevalence, which continues to pose significant morbidity and costs. In spite of considerable progress in our understanding of asthma, a large number of individuals with asthma continue to have symptoms and subsequently, have a poor functional status, poor quality of life and increased health care costs. In many cases no apparent cause is found and optimal therapy does not achieve its goal. While recent data suggests that OSA is common in severe asthma, the prevalence of OSA and its predisposing factors have not been studied.
Phase One: High Flow (HF) CPAP (HF-CPAP) Titration: Participants will attend the sleep lab to undergo a comprehensive split-night respiratory PSG. Each participant will be randomized to one of 20 L/min or 35 L/min of CPAP for the first half of the night and swapped to the alternate flow rate for the second half o the night. At the completion of night 3 participants will be categorized as responders or non-responders. Only responders will continue to Phase 2 of the investigation. Phase Two: HF-CPAP compared with CPAP: Participants will attend the sleep lab to undergo a comprehensive overnight respiratory PSG. Each participant will be randomized to HF-CPAP at a flow rate of 35 L/min or to conventional CPAP at their therapeutic pressure. They will spend the entire night on this treatment arm. Thew following night participants will undergo the alternative treatment arm for the duration of the night.
Obstructive sleep apnoea (OSA) is characterised by a partial or complete collapse of the upper airway during sleep. The treatment of choice for OSA is Continuous Positive Airway Pressure (CPAP). CPAP acts as a positive airway splint, delivering a fixed positive airway pressure to the upper airway via a tube and mask. Humidification is used during CPAP therapy to improve the comfort of the delivered air and to alleviate nasal dryness/congestion. The latest design of a CPAP device, known as Nexus (S9), encompasses new features including an improved humidification system (heated tube and climate control), reduced noise, improved comfort of breathing, and a new user interface. This study will assess whether compliance on CPAP therapy is improved on the Nexus (S9) CPAP, and will assess the usability of the Nexus (S9) CPAP
The study is designed to compare the apnea event recognition capability of the Capnostream 20 with investigational software to polysomnograph recordings scored by a trained analyst. The study will compare the apnea index score (AI) calculated by the Capnostream 20 algorithm based on capnography to that calculated by a trained analyst evaluating polysomnograph recordings. To this aim, subjects will be connected to EMBLA N7000 Polysomnograph, and to the Capnostream 20, in order to monitor CO2 and SpO2 during routine overnight sleep studies. The Capnostream, using both its USB Data Port and Analog output port will simultaneously provide the monitored data both to a USB flash memory device and Polysomnograph for storage for future analysis. The data collected by the Polysomnograph including the Capnostream data will be analyzed by a trained expert for evaluation of apnea events obtained from both sources. In parallel, the Capnostream data as collected with the USB flash memory, will be downloaded onto a PC, and using the Oridion software algorithm designed for evaluating the data (to be implemented in the monitor when validated), the Apnea Index and Oxygen Desaturation Index will be calculated. The results of the Apnea Index scores calculated from the Polysomnograph and from the DUT will be compared. Based on the results, the study will then evaluate the ability of the Capnograph/Pulse-Oximeter as a tool for screening and assisting in the diagnosis of patients with obstructive sleep-apnea in the hospital environment, where it is being used as a ventilation monitor based on the demonstration of a high correlation with the gold standard in the sleep lab.
The aim of the investigators study was to evaluate the effectiveness of a home programme (diagnosis and follow-up) in patients with Obstructive Sleep Apnea (OSA) syndrome treated with CPAP and to analyze the cost of this approach.
The primary objective is to determine the prevalence of sleep disordered breathing in children with primary hypertension or pre hypertension. The secondary objectives are to determine any association factors for children with primary hypertension or prehypertension to have sleep disordered breathing be it gender, age, body mass index (BMI), family history (hx) or ethnic group.
The purpose of this randomized prospective study is to compare the efficacy of two approaches to initiate Positive Airway Pressure (PAP) treatment in patients diagnosed as having obstructive sleep apnea (OSA) by portable monitoring (PM) (limited sleep study). One pathway involves attended Continuous Positive Airway Pressure (CPAP) titration by PSG (full attended sleep study) followed by CPAP treatment. The other pathway involves treatment with auto-adjusting positive airway pressure (APAP)(without a titration). Study Aims: Compare PAP adherence, improvement in subjective sleepiness (Epworth Sleepiness Scale), reaction time (Psychomotor vigilance test), quality of life by the Functional Outcomes of Sleep Questionnaire (FOSQ), and PAP satisfaction (PAP satisfaction questionnaire) between the two study arms.
Sleep apnea is common among Veterans with cerebrovascular disease (stroke or transient ischemic attack [TIA]), leads to hypertension, and is associated with recurrent stroke and death. Although continuous positive airway pressure (CPAP) safely treats sleep apnea, few Veterans with cerebrovascular disease are diagnosed with sleep apnea or offered treatment.
The hypothesis of this study is that either obstructive sleep apnea (OSA) or cigarette smoking (CS) exposure would produce oxidative stress and inflammation leading to endothelial injury, and the combined exposure would be additive or synergistic.
The purpose of this study is to compare the efficacy of two different physical activity regimens as complementary or alternative treatment options for the treatment of obstructive sleep apnea. A secondary purpose of the study is to examine the effects of these activity regimens on various health consequences of obstructive sleep apnea, including blood pressure, systemic inflammation, and daytime functioning.